Human Papillomavirus Type and Viral Load in Relation to Circulating Cell-Free Tumour HPV DNA Level and Survival in Cervical Cancer.

IF 4.4 3区医学 Q1 GENETICS & HEREDITY

Molecular Diagnosis & Therapy Pub Date : 2025-08-16 DOI:10.1007/s40291-025-00809-2

Kristina Hellman, Mark Zupancic, Cecilia Jylhä, Emma Tham, Lars Sivars

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引用次数: 0

Abstract

Background and objective: Human papillomavirus (HPV) is the cause of most cervical cancers and is released as circulating cell-free tumour HPV DNA (ctHPV DNA) into circulation. Earlier studies have indicated that ctHPV DNA is a promising biomarker for analysing treatment response and for recurrence surveillance. However, factors influencing the release of ctHPV DNA, including HPV type and HPV viral load, have not been extensively studied and additional biomarkers for prognosis are needed. Therefore, here we analysed ctHPV DNA, HPV type and viral load in relation to each other and to progression-free survival in patients with locally advanced or advanced cervical cancer.

Methods: Pre-treatment biopsies and blood samples were collected from patients diagnosed with cervical cancer (Federation of Gynecology and Obstetrics [FIGO] stage IB-IV). One hundred and seventeen patients with HPV-positive tumours were included. Human papillomavirus type-specific, droplet digital polymerase chain reaction (ddPCR) assays were used to analyse previously genotyped biopsies for the viral load. Pre-treatment plasma from 92/117 patients were available and analysed for ctHPV DNA and total cell-free DNA levels. Results were related to patient and tumour characteristics and progression-free survival. Patients were grouped based on HPV species where alpha-9-species (including HPV16) and alpha-7-species (including HPV 18) constituted the majority of cases.

Results: Cell-free tumour HPV DNA was found in 83/92 (90.2%) of pre-treatment plasma samples. Higher biopsy viral load was significantly related to a higher ctHPV DNA level. Higher stage and larger primary tumour size were also associated with higher ctHPV DNA level. Alpha-9 species, including HPV16, had a significantly higher viral load (16×), a higher ctHPV DNA level (17×), and a higher detection rate in plasma than alpha-7 species, including HPV18. Alpha-9 species also had significantly better progression-free survival than alpha-7 species. Additional factors leading to better progression-free survival included a lower stage, a lower total cell-free DNA level, a viral load in the 90th percentile and, in the high-risk cervical cancer group, a higher pre-treatment ctHPV DNA level.

Conclusions: Cell-free tumour HPV DNA, HPV type and viral load are promising biomarkers in cervical cancer. The lower sensitivity for ctHPV DNA detection for alpha-7 species, including HPV18, needs to be considered in future studies on ctHPV DNA, especially if used as a marker for relapse during surveillance when ctHPV DNA levels are very low.

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人乳头瘤病毒类型和病毒载量与宫颈癌循环无细胞肿瘤HPV DNA水平和生存的关系。

背景和目的：人乳头瘤病毒（HPV）是大多数宫颈癌的病因，并作为循环无细胞肿瘤HPV DNA （ctHPV DNA）释放到循环中。早期的研究表明，ctHPV DNA是分析治疗反应和复发监测的有前途的生物标志物。然而，影响ctHPV DNA释放的因素，包括HPV类型和HPV病毒载量，尚未被广泛研究，需要其他的预后生物标志物。因此，在这里，我们分析了ctHPV DNA、HPV类型和病毒载量之间的关系以及局部晚期或晚期宫颈癌患者的无进展生存期。方法：对诊断为宫颈癌（妇产科学联合会[FIGO] IB-IV期）的患者进行治疗前活检和血样采集。117例hpv阳性肿瘤患者被纳入研究。人乳头瘤病毒类型特异性，液滴数字聚合酶链反应（ddPCR）测定用于分析先前的基因分型活检的病毒载量。收集了92/117例患者的治疗前血浆，并分析了ctHPV DNA和总游离细胞DNA水平。结果与患者和肿瘤特征以及无进展生存期有关。根据HPV类型对患者进行分组，其中α -9种（包括HPV16）和α -7种（包括hpv18）占多数。结果：治疗前血浆样本中83/92（90.2%）检出无细胞肿瘤HPV DNA。较高的活检病毒载量与较高的ctHPV DNA水平显著相关。较高的分期和较大的原发肿瘤大小也与较高的ctHPV DNA水平相关。与HPV18等α -7种相比，包括HPV16在内的α -9种具有更高的病毒载量（16倍）、更高的ctHPV DNA水平（17倍）和更高的血浆检出率。α -9种的无进展生存期也明显优于α -7种。导致更好的无进展生存的其他因素包括较低的分期、较低的总无细胞DNA水平、第90百分位的病毒载量以及高危宫颈癌组较高的治疗前ctHPV DNA水平。结论：无细胞肿瘤HPV DNA、HPV类型和病毒载量是宫颈癌中有希望的生物标志物。包括HPV18在内的α -7种ctHPV DNA检测灵敏度较低，需要在未来的ctHPV DNA研究中加以考虑，特别是当ctHPV DNA水平非常低时，作为监测期间复发的标志。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular Diagnosis & Therapy 医学-药学

CiteScore

7.80

自引率

2.50%

发文量

审稿时长

>12 weeks

期刊介绍： Molecular Diagnosis & Therapy welcomes current opinion articles on emerging or contentious issues, comprehensive narrative reviews, systematic reviews (as outlined by the PRISMA statement), original research articles (including short communications) and letters to the editor. All manuscripts are subject to peer review by international experts.